//****************************************************************************** // // File: PixelSignal.java // Package: edu.rit.mri // Unit: Class edu.rit.mri.PixelSignal // // This Java source file is copyright (C) 2008 by Alan Kaminsky. All rights // reserved. For further information, contact the author, Alan Kaminsky, at // ark@cs.rit.edu. // // This Java source file is part of the Parallel Java Library ("PJ"). PJ is free // software; you can redistribute it and/or modify it under the terms of the GNU // General Public License as published by the Free Software Foundation; either // version 3 of the License, or (at your option) any later version. // // PJ is distributed in the hope that it will be useful, but WITHOUT ANY // WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR // A PARTICULAR PURPOSE. See the GNU General Public License for more details. // // Linking this library statically or dynamically with other modules is making a // combined work based on this library. Thus, the terms and conditions of the // GNU General Public License cover the whole combination. // // As a special exception, the copyright holders of this library give you // permission to link this library with independent modules to produce an // executable, regardless of the license terms of these independent modules, and // to copy and distribute the resulting executable under terms of your choice, // provided that you also meet, for each linked independent module, the terms // and conditions of the license of that module. An independent module is a // module which is not derived from or based on this library. If you modify this // library, you may extend this exception to your version of the library, but // you are not obligated to do so. If you do not wish to do so, delete this // exception statement from your version. // // A copy of the GNU General Public License is provided in the file gpl.txt. You // may also obtain a copy of the GNU General Public License on the World Wide // Web at http://www.gnu.org/licenses/gpl.html. // //****************************************************************************** package edu.rit.mri; import edu.rit.numeric.Series; import java.io.DataInput; import java.io.DataOutput; import java.io.Externalizable; import java.io.IOException; import java.io.ObjectInput; import java.io.ObjectOutput; /** * Class PixelSignal encapsulates the measured spin signal on one pixel of a * magnetic resonance image. This includes: * *

* Each spin signal value is stored as a value of type short in the * range −32768..+32767. *

* Operations are provided to read a pixel signal object from a DataInputStream * and write a pixel signal object to a DataOutputStream. The format is: *

*

* Operations are provided to read a pixel signal object from an * ObjectInputStream and write a pixel signal object to an ObjectOutputStream. * The format is: *

* * @author Alan Kaminsky * @version 25-Jun-2008 */ public class PixelSignal implements Externalizable { // Hidden data members. private static final long serialVersionUID = 3137091490421051491L; // File index. private int fileIndex; // Pixel index. private int pixelIndex; // Array of measured spin signal values. private short[] S; // Exported constructors. /** * Construct a new, uninitialized pixel signal object. This constructor is * for use only by object deserialization. */ public PixelSignal() { } /** * Construct a new pixel signal object. If there was no measured spin signal * for this pixel, S_array is null. * * @param fileIndex File index. * @param pixelIndex Pixel index. * @param S_array Array containing measured spin signal values, or * null. */ public PixelSignal (int fileIndex, int pixelIndex, short[] S_array) { fileIndex (fileIndex); pixelIndex (pixelIndex); S_measured (S_array); } /** * Construct a new pixel signal object. If there was no measured spin signal * for this pixel, S_series is null. Each value in * S_series is truncated to type short before being * stored; values outside the range −32768..+32767 are pinned to the * nearest boundary of that range. * * @param fileIndex File index. * @param pixelIndex Pixel index. * @param S_series Series containing measured spin signal values, or * null. */ public PixelSignal (int fileIndex, int pixelIndex, Series S_series) { fileIndex (fileIndex); pixelIndex (pixelIndex); S_measured (S_series); } // Exported operations. /** * Get the file index. * * @return File index. */ public int fileIndex() { return fileIndex; } /** * Specify the file index. * * @param index File index. */ public void fileIndex (int index) { fileIndex = index; } /** * Get the pixel index. * * @return Pixel index. */ public int pixelIndex() { return pixelIndex; } /** * Specify the pixel index. * * @param index Pixel index. */ public void pixelIndex (int index) { pixelIndex = index; } /** * Get the number of measured spin signal values for this pixel. If there * was no measured spin signal for this pixel, 0 is returned. * * @return Number of measured spin signal values, or 0. */ public int length() { return S == null ? 0 : S.length; } /** * Get a series containing this pixel's measured spin signal values. If * there was no measured spin signal for this pixel, null is returned. * * @return Series containing measured spin signal values, or null. */ public Series S_measured() { return S == null ? null : new Series() { public int length() { return S.length; } public double x (int i) { return S[i]; } }; } /** * Specify an array containing this pixel's measured spin signal values. If * there was no measured spin signal for this pixel, S_array is * null. * * @param S_array Array containing measured spin signal values, or null. */ public void S_measured (short[] S_array) { if (S_array != null) { this.S = (short[]) S_array.clone(); } else { this.S = null; } } /** * Specify a series containing this pixel's measured spin signal values. If * there was no measured spin signal for this pixel, S_series is * null. Each value in S_series is truncated to type short * before being stored; values outside the range −32768..+32767 are * pinned to the nearest boundary of that range. * * @param S_series Series containing measured spin signal values, or null. */ public void S_measured (Series S_series) { if (S_series != null) { int M = S_series.length(); this.S = new short [M]; for (int i = 0; i < M; ++ i) { this.S[i] = (short) Math.max (-32768.0, Math.min (S_series.x(i), 32767.0)); } } else { this.S = null; } } /** * Write this pixel signal object to the given data output stream. *

* Note: The file index and pixel index are not written. * * @param out Data output stream. * * @exception IOException * Thrown if an I/O error occurred. */ public void write (DataOutput out) throws IOException { int M = S == null ? 0 : S.length; out.writeShort ((short) M); for (int i = 0; i < M; ++ i) { out.writeShort (S[i]); } } /** * Read this pixel signal object from the given data input stream. *

* Note: The file index and pixel index are not read. * * @param in Data input stream. * * @exception IOException * Thrown if an I/O error occurred. */ public void read (DataInput in) throws IOException { int M = in.readShort(); if (M == 0) { S = null; } else { S = new short [M]; for (int i = 0; i < M; ++ i) { S[i] = in.readShort(); } } } /** * Write this pixel signal object to the given object output stream. * * @param out Object output stream. * * @exception IOException * Thrown if an I/O error occurred. */ public void writeExternal (ObjectOutput out) throws IOException { out.writeInt (fileIndex); out.writeInt (pixelIndex); write (out); } /** * Read this pixel signal object from the given object input stream. * * @param in Object input stream. * * @exception IOException * Thrown if an I/O error occurred. */ public void readExternal (ObjectInput in) throws IOException { fileIndex = in.readInt(); pixelIndex = in.readInt(); read (in); } }